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기술보고서

기술보고서 게시판 내용
타이틀	Space Research Results Purify Semiconductor Materials
저자	none
Keyword	CRYSTALS;; ENDEAVOUR (ORBITER); INDUSTRIES;; RESEARCH AND DEVELOPMENT;; SEMICONDUCTOR LASERS;; SEMICONDUCTORS (MATERIALS); SPACE SHUTTLE MISSIONS;; TECHNOLOGY UTILIZATION;; THIN FILMS
URL	http://hdl.handle.net/2060/20110000749
보고서번호	NASA/NP-2010-06-659-HQ
발행년도	2010
출처	NTRS (NASA Technical Report Server)
ABSTRACT	While President Obama''s news that NASA would encourage private companies to develop vehicles to take NASA into space may have come as a surprise to some, NASA has always encouraged private companies to invest in space. More than two decades ago, NASA established Commercial Space Centers across the United States to encourage industry to use space as a place to conduct research and to apply NASA technology to Earth applications. Although the centers are no longer funded by NASA, the advances enabled by that previous funding are still impacting us all today. For example, the Space Vacuum Epitaxy Center (SVEC) at the University of Houston, one of the 17 Commercial Space Centers, had a mission to create advanced thin film semiconductor materials and devices through the use of vacuum growth technologies both on Earth and in space. Making thin film materials in a vacuum (low-pressure environment) is advantageous over making them in normal atmospheric pressures, because contamination floating in the air is lessened in a vacuum. To grow semiconductor crystals, researchers at SVEC utilized epitaxy the process of depositing a thin layer of material on top of another thin layer of material. On Earth, this process took place in a vacuum chamber in a clean room lab. For space, the researchers developed something called the Wake Shield Facility (WSF), a 12-foot-diameter disk-shaped platform designed to grow thin film materials using the low-pressure environment in the wake of the space shuttle. Behind an orbiting space shuttle, the vacuum levels are thousands of times better than in the best vacuum chambers on Earth. Throughout the 1990s, the WSF flew on three space shuttle missions as a series of proof-of-concept missions. These experiments are a lasting testament to the success of the shuttle program and resulted in the development of the first thin film materials made in the vacuum of space, helping to pave the way for better thin film development on Earth.